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dfe64e2c89
This patch is essentially an update of u-boot MTD subsystem to the state of Linux-3.7.1 with exclusion of some bits: - the update is concentrated on NAND, no onenand or CFI/NOR/SPI flashes interfaces are updated EXCEPT for API changes. - new large NAND chips support is there, though some updates have got in Linux-3.8.-rc1, (which will follow on top of this patch). To produce this update I used tag v3.7.1 of linux-stable repository. The update was made using application of relevant patches, with changes relevant to U-Boot-only stuff sticked together to keep bisectability. Then all changes were grouped together to this patch. Signed-off-by: Sergey Lapin <slapin@ossfans.org> [scottwood@freescale.com: some eccstrength and build fixes] Signed-off-by: Scott Wood <scottwood@freescale.com>
429 lines
12 KiB
C
429 lines
12 KiB
C
/*
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* Simple MTD partitioning layer
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*
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* (C) 2000 Nicolas Pitre <nico@cam.org>
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*
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* This code is GPL
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*
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* 02-21-2002 Thomas Gleixner <gleixner@autronix.de>
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* added support for read_oob, write_oob
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*/
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#include <common.h>
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#include <malloc.h>
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#include <asm/errno.h>
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#include <linux/types.h>
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#include <linux/list.h>
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#include <linux/mtd/mtd.h>
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#include <linux/mtd/partitions.h>
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#include <linux/compat.h>
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/* Our partition linked list */
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struct list_head mtd_partitions;
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/* Our partition node structure */
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struct mtd_part {
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struct mtd_info mtd;
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struct mtd_info *master;
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uint64_t offset;
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int index;
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struct list_head list;
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int registered;
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};
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/*
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* Given a pointer to the MTD object in the mtd_part structure, we can retrieve
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* the pointer to that structure with this macro.
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*/
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#define PART(x) ((struct mtd_part *)(x))
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/*
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* MTD methods which simply translate the effective address and pass through
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* to the _real_ device.
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*/
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static int part_read(struct mtd_info *mtd, loff_t from, size_t len,
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size_t *retlen, u_char *buf)
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{
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struct mtd_part *part = PART(mtd);
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struct mtd_ecc_stats stats;
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int res;
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stats = part->master->ecc_stats;
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res = mtd_read(part->master, from + part->offset, len, retlen, buf);
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if (unlikely(res)) {
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if (mtd_is_bitflip(res))
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mtd->ecc_stats.corrected += part->master->ecc_stats.corrected - stats.corrected;
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if (mtd_is_eccerr(res))
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mtd->ecc_stats.failed += part->master->ecc_stats.failed - stats.failed;
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}
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return res;
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}
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static int part_read_oob(struct mtd_info *mtd, loff_t from,
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struct mtd_oob_ops *ops)
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{
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struct mtd_part *part = PART(mtd);
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int res;
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if (from >= mtd->size)
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return -EINVAL;
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if (ops->datbuf && from + ops->len > mtd->size)
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return -EINVAL;
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res = mtd_read_oob(part->master, from + part->offset, ops);
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if (unlikely(res)) {
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if (mtd_is_bitflip(res))
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mtd->ecc_stats.corrected++;
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if (mtd_is_eccerr(res))
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mtd->ecc_stats.failed++;
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}
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return res;
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}
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static int part_read_user_prot_reg(struct mtd_info *mtd, loff_t from,
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size_t len, size_t *retlen, u_char *buf)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_read_user_prot_reg(part->master, from, len, retlen, buf);
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}
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static int part_get_user_prot_info(struct mtd_info *mtd,
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struct otp_info *buf, size_t len)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_get_user_prot_info(part->master, buf, len);
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}
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static int part_read_fact_prot_reg(struct mtd_info *mtd, loff_t from,
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size_t len, size_t *retlen, u_char *buf)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_read_fact_prot_reg(part->master, from, len, retlen, buf);
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}
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static int part_get_fact_prot_info(struct mtd_info *mtd, struct otp_info *buf,
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size_t len)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_get_fact_prot_info(part->master, buf, len);
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}
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static int part_write(struct mtd_info *mtd, loff_t to, size_t len,
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size_t *retlen, const u_char *buf)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_write(part->master, to + part->offset, len, retlen, buf);
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}
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static int part_write_oob(struct mtd_info *mtd, loff_t to,
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struct mtd_oob_ops *ops)
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{
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struct mtd_part *part = PART(mtd);
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if (to >= mtd->size)
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return -EINVAL;
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if (ops->datbuf && to + ops->len > mtd->size)
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return -EINVAL;
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return mtd_write_oob(part->master, to + part->offset, ops);
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}
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static int part_write_user_prot_reg(struct mtd_info *mtd, loff_t from,
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size_t len, size_t *retlen, u_char *buf)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_write_user_prot_reg(part->master, from, len, retlen, buf);
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}
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static int part_lock_user_prot_reg(struct mtd_info *mtd, loff_t from,
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size_t len)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_lock_user_prot_reg(part->master, from, len);
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}
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static int part_erase(struct mtd_info *mtd, struct erase_info *instr)
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{
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struct mtd_part *part = PART(mtd);
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int ret;
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instr->addr += part->offset;
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ret = mtd_erase(part->master, instr);
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if (ret) {
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if (instr->fail_addr != MTD_FAIL_ADDR_UNKNOWN)
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instr->fail_addr -= part->offset;
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instr->addr -= part->offset;
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}
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return ret;
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}
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void mtd_erase_callback(struct erase_info *instr)
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{
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if (instr->mtd->_erase == part_erase) {
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struct mtd_part *part = PART(instr->mtd);
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if (instr->fail_addr != MTD_FAIL_ADDR_UNKNOWN)
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instr->fail_addr -= part->offset;
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instr->addr -= part->offset;
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}
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if (instr->callback)
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instr->callback(instr);
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}
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static int part_lock(struct mtd_info *mtd, loff_t ofs, uint64_t len)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_lock(part->master, ofs + part->offset, len);
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}
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static int part_unlock(struct mtd_info *mtd, loff_t ofs, uint64_t len)
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{
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struct mtd_part *part = PART(mtd);
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return mtd_unlock(part->master, ofs + part->offset, len);
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}
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static void part_sync(struct mtd_info *mtd)
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{
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struct mtd_part *part = PART(mtd);
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mtd_sync(part->master);
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}
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static int part_block_isbad(struct mtd_info *mtd, loff_t ofs)
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{
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struct mtd_part *part = PART(mtd);
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ofs += part->offset;
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return mtd_block_isbad(part->master, ofs);
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}
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static int part_block_markbad(struct mtd_info *mtd, loff_t ofs)
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{
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struct mtd_part *part = PART(mtd);
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int res;
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ofs += part->offset;
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res = mtd_block_markbad(part->master, ofs);
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if (!res)
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mtd->ecc_stats.badblocks++;
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return res;
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}
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/*
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* This function unregisters and destroy all slave MTD objects which are
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* attached to the given master MTD object.
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*/
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int del_mtd_partitions(struct mtd_info *master)
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{
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struct mtd_part *slave, *next;
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list_for_each_entry_safe(slave, next, &mtd_partitions, list)
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if (slave->master == master) {
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list_del(&slave->list);
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if (slave->registered)
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del_mtd_device(&slave->mtd);
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kfree(slave);
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}
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return 0;
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}
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static struct mtd_part *add_one_partition(struct mtd_info *master,
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const struct mtd_partition *part, int partno,
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uint64_t cur_offset)
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{
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struct mtd_part *slave;
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/* allocate the partition structure */
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slave = kzalloc(sizeof(*slave), GFP_KERNEL);
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if (!slave) {
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printk(KERN_ERR"memory allocation error while creating partitions for \"%s\"\n",
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master->name);
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del_mtd_partitions(master);
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return NULL;
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}
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list_add(&slave->list, &mtd_partitions);
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/* set up the MTD object for this partition */
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slave->mtd.type = master->type;
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slave->mtd.flags = master->flags & ~part->mask_flags;
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slave->mtd.size = part->size;
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slave->mtd.writesize = master->writesize;
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slave->mtd.oobsize = master->oobsize;
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slave->mtd.oobavail = master->oobavail;
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slave->mtd.subpage_sft = master->subpage_sft;
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slave->mtd.name = part->name;
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slave->mtd.owner = master->owner;
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slave->mtd._read = part_read;
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slave->mtd._write = part_write;
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if (master->_read_oob)
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slave->mtd._read_oob = part_read_oob;
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if (master->_write_oob)
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slave->mtd._write_oob = part_write_oob;
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if (master->_read_user_prot_reg)
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slave->mtd._read_user_prot_reg = part_read_user_prot_reg;
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if (master->_read_fact_prot_reg)
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slave->mtd._read_fact_prot_reg = part_read_fact_prot_reg;
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if (master->_write_user_prot_reg)
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slave->mtd._write_user_prot_reg = part_write_user_prot_reg;
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if (master->_lock_user_prot_reg)
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slave->mtd._lock_user_prot_reg = part_lock_user_prot_reg;
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if (master->_get_user_prot_info)
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slave->mtd._get_user_prot_info = part_get_user_prot_info;
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if (master->_get_fact_prot_info)
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slave->mtd._get_fact_prot_info = part_get_fact_prot_info;
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if (master->_sync)
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slave->mtd._sync = part_sync;
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if (master->_lock)
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slave->mtd._lock = part_lock;
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if (master->_unlock)
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slave->mtd._unlock = part_unlock;
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if (master->_block_isbad)
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slave->mtd._block_isbad = part_block_isbad;
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if (master->_block_markbad)
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slave->mtd._block_markbad = part_block_markbad;
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slave->mtd._erase = part_erase;
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slave->master = master;
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slave->offset = part->offset;
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slave->index = partno;
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if (slave->offset == MTDPART_OFS_APPEND)
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slave->offset = cur_offset;
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if (slave->offset == MTDPART_OFS_NXTBLK) {
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slave->offset = cur_offset;
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if (mtd_mod_by_eb(cur_offset, master) != 0) {
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/* Round up to next erasesize */
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slave->offset = (mtd_div_by_eb(cur_offset, master) + 1) * master->erasesize;
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debug("Moving partition %d: 0x%012llx -> 0x%012llx\n",
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partno, (unsigned long long)cur_offset,
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(unsigned long long)slave->offset);
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}
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}
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if (slave->mtd.size == MTDPART_SIZ_FULL)
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slave->mtd.size = master->size - slave->offset;
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debug("0x%012llx-0x%012llx : \"%s\"\n",
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(unsigned long long)slave->offset,
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(unsigned long long)(slave->offset + slave->mtd.size),
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slave->mtd.name);
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/* let's do some sanity checks */
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if (slave->offset >= master->size) {
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/* let's register it anyway to preserve ordering */
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slave->offset = 0;
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slave->mtd.size = 0;
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printk(KERN_ERR"mtd: partition \"%s\" is out of reach -- disabled\n",
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part->name);
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goto out_register;
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}
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if (slave->offset + slave->mtd.size > master->size) {
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slave->mtd.size = master->size - slave->offset;
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printk(KERN_WARNING"mtd: partition \"%s\" extends beyond the end of device \"%s\" -- size truncated to %#llx\n",
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part->name, master->name, (unsigned long long)slave->mtd.size);
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}
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if (master->numeraseregions > 1) {
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/* Deal with variable erase size stuff */
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int i, max = master->numeraseregions;
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u64 end = slave->offset + slave->mtd.size;
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struct mtd_erase_region_info *regions = master->eraseregions;
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/* Find the first erase regions which is part of this
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* partition. */
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for (i = 0; i < max && regions[i].offset <= slave->offset; i++)
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;
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/* The loop searched for the region _behind_ the first one */
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i--;
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/* Pick biggest erasesize */
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for (; i < max && regions[i].offset < end; i++) {
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if (slave->mtd.erasesize < regions[i].erasesize) {
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slave->mtd.erasesize = regions[i].erasesize;
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}
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}
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BUG_ON(slave->mtd.erasesize == 0);
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} else {
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/* Single erase size */
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slave->mtd.erasesize = master->erasesize;
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}
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if ((slave->mtd.flags & MTD_WRITEABLE) &&
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mtd_mod_by_eb(slave->offset, &slave->mtd)) {
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/* Doesn't start on a boundary of major erase size */
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/* FIXME: Let it be writable if it is on a boundary of
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* _minor_ erase size though */
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slave->mtd.flags &= ~MTD_WRITEABLE;
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printk(KERN_WARNING"mtd: partition \"%s\" doesn't start on an erase block boundary -- force read-only\n",
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part->name);
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}
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if ((slave->mtd.flags & MTD_WRITEABLE) &&
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mtd_mod_by_eb(slave->mtd.size, &slave->mtd)) {
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slave->mtd.flags &= ~MTD_WRITEABLE;
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printk(KERN_WARNING"mtd: partition \"%s\" doesn't end on an erase block -- force read-only\n",
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part->name);
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}
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slave->mtd.ecclayout = master->ecclayout;
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if (master->_block_isbad) {
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uint64_t offs = 0;
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while (offs < slave->mtd.size) {
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if (mtd_block_isbad(master, offs + slave->offset))
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slave->mtd.ecc_stats.badblocks++;
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offs += slave->mtd.erasesize;
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}
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}
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out_register:
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if (part->mtdp) {
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/* store the object pointer (caller may or may not register it*/
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*part->mtdp = &slave->mtd;
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slave->registered = 0;
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} else {
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/* register our partition */
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add_mtd_device(&slave->mtd);
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slave->registered = 1;
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}
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return slave;
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}
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/*
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* This function, given a master MTD object and a partition table, creates
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* and registers slave MTD objects which are bound to the master according to
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* the partition definitions.
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*
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* We don't register the master, or expect the caller to have done so,
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* for reasons of data integrity.
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*/
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int add_mtd_partitions(struct mtd_info *master,
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const struct mtd_partition *parts,
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int nbparts)
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{
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struct mtd_part *slave;
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uint64_t cur_offset = 0;
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int i;
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/*
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* Need to init the list here, since LIST_INIT() does not
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* work on platforms where relocation has problems (like MIPS
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* & PPC).
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*/
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if (mtd_partitions.next == NULL)
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INIT_LIST_HEAD(&mtd_partitions);
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debug("Creating %d MTD partitions on \"%s\":\n", nbparts, master->name);
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for (i = 0; i < nbparts; i++) {
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slave = add_one_partition(master, parts + i, i, cur_offset);
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if (!slave)
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return -ENOMEM;
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cur_offset = slave->offset + slave->mtd.size;
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}
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return 0;
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}
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